The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on Echinococcosis in an Experimental Rats Model

Echinococcosis is a worldwide anthropozoonosis which is highly endemic over large animal husbandry areas in northwestern China. The current clinical therapeutic medicine against echinococcosis is albendazole, although it caused serious side effects in patients. The component in traditional Chinese h...

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Autores principales: Zhang, Fabin, Hu, Chunhui, Cheng, Shilei, Wang, Shulin, Li, Bin, Cao, Deping, Fan, Haining, Pan, Ruchong, Yang, Mei, Xu, Yanhui
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Hindawi 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5896210/
https://www.ncbi.nlm.nih.gov/pubmed/29785189
http://dx.doi.org/10.1155/2018/3523126
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author Zhang, Fabin
Hu, Chunhui
Cheng, Shilei
Wang, Shulin
Li, Bin
Cao, Deping
Fan, Haining
Pan, Ruchong
Yang, Mei
Xu, Yanhui
author_facet Zhang, Fabin
Hu, Chunhui
Cheng, Shilei
Wang, Shulin
Li, Bin
Cao, Deping
Fan, Haining
Pan, Ruchong
Yang, Mei
Xu, Yanhui
author_sort Zhang, Fabin
collection PubMed
description Echinococcosis is a worldwide anthropozoonosis which is highly endemic over large animal husbandry areas in northwestern China. The current clinical therapeutic medicine against echinococcosis is albendazole, although it caused serious side effects in patients. The component in traditional Chinese herb medicine, Sophora moorcroftiana alkaloids (SA), is thought to be a potential drug to treat echinococcosis. In order to explore the effect and mechanism of SA treatment against echinococcosis, we established animal echinococcosis model and treated rats with albendazole alone, alkaloids alone, and combined therapy. The combined treatment showed effective inhibition against parasite infection due to induction of host response and alleviated liver injury; meanwhile albendazole caused serious liver problem. The proteomics study revealed that the combined therapy might induce complement activation through C3, C4, C5, SERPINA1, and SERPINC1 proteins and cell adhesion by ANXA2, EZR, YWHAB, HSP90AN1, and PRKAR2A proteins, while albendazole treatment could induce liver injury through CRYAB, YWHAZ, SLC25A24, and HSPA1B proteins that were involved in cell death. In all, we consider that the combinational treatment displayed better therapeutic effects against liver echinococcosis as well as alleviated liver injury, which could be considered as an effective strategy to treat echinococcosis clinically.
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spelling pubmed-58962102018-05-21 The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on Echinococcosis in an Experimental Rats Model Zhang, Fabin Hu, Chunhui Cheng, Shilei Wang, Shulin Li, Bin Cao, Deping Fan, Haining Pan, Ruchong Yang, Mei Xu, Yanhui Evid Based Complement Alternat Med Research Article Echinococcosis is a worldwide anthropozoonosis which is highly endemic over large animal husbandry areas in northwestern China. The current clinical therapeutic medicine against echinococcosis is albendazole, although it caused serious side effects in patients. The component in traditional Chinese herb medicine, Sophora moorcroftiana alkaloids (SA), is thought to be a potential drug to treat echinococcosis. In order to explore the effect and mechanism of SA treatment against echinococcosis, we established animal echinococcosis model and treated rats with albendazole alone, alkaloids alone, and combined therapy. The combined treatment showed effective inhibition against parasite infection due to induction of host response and alleviated liver injury; meanwhile albendazole caused serious liver problem. The proteomics study revealed that the combined therapy might induce complement activation through C3, C4, C5, SERPINA1, and SERPINC1 proteins and cell adhesion by ANXA2, EZR, YWHAB, HSP90AN1, and PRKAR2A proteins, while albendazole treatment could induce liver injury through CRYAB, YWHAZ, SLC25A24, and HSPA1B proteins that were involved in cell death. In all, we consider that the combinational treatment displayed better therapeutic effects against liver echinococcosis as well as alleviated liver injury, which could be considered as an effective strategy to treat echinococcosis clinically. Hindawi 2018-03-28 /pmc/articles/PMC5896210/ /pubmed/29785189 http://dx.doi.org/10.1155/2018/3523126 Text en Copyright © 2018 Fabin Zhang et al. https://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Zhang, Fabin
Hu, Chunhui
Cheng, Shilei
Wang, Shulin
Li, Bin
Cao, Deping
Fan, Haining
Pan, Ruchong
Yang, Mei
Xu, Yanhui
The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on Echinococcosis in an Experimental Rats Model
title The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on Echinococcosis in an Experimental Rats Model
title_full The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on Echinococcosis in an Experimental Rats Model
title_fullStr The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on Echinococcosis in an Experimental Rats Model
title_full_unstemmed The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on Echinococcosis in an Experimental Rats Model
title_short The Investigation of the Effect and Mechanism of Sophora moorcroftiana Alkaloids in Combination with Albendazole on Echinococcosis in an Experimental Rats Model
title_sort investigation of the effect and mechanism of sophora moorcroftiana alkaloids in combination with albendazole on echinococcosis in an experimental rats model
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5896210/
https://www.ncbi.nlm.nih.gov/pubmed/29785189
http://dx.doi.org/10.1155/2018/3523126
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